A.B.data solutions(p)LTD.
Rated by 0 voters
Company location
India
Rewa
vikas MargShakarpur Delhi Delhi 110092 India, U-180 lst Floorvikas MargShakarpur Delhi Delhi 110092
Rated by 0 voters
India
Rewa
vikas MargShakarpur Delhi Delhi 110092 India, U-180 lst Floorvikas MargShakarpur Delhi Delhi 110092
| Energy | Charcoal | |
| Petrochemical Products | Bitumen | |
| Paraffin | ||
| Personal Care | Beauty Equipment | Facial Steamer |
| Wax Heater | ||
| Bath Supplies |
91 - 98 - 11634161
91 - 11 - 23273563More Information
A.B.data solutions(p)LTD. headquarters is cituated in Rewa India. sir,PLEASE QUOTE / OFFER YOUR MOST COMPETITIVE PRICE CIF NHAVA SHEVA / MUMBAI PORT ( INDIA ) FOR PROMPT SHIPMENT 50 FCLS /... vikas MargShakarpur Delhi Delhi 110092 India, U-180 lst Floorvikas MargShakarpur Delhi Delhi 110092. MENTION COMPLETE SPECIFICATIONS, MANUFACTURERS NAME, PACKING & EARLIEST ( PROMPT ) SHIPMENT TIME. A.B.data solutions(p)LTD. specialized in Energy, Charcoal.
Promote your business. It’s free!
We have great pleasure to introduce ourselves as manufacturers of INDUSTRIAL & DOMESTIC BRUSHES made out of Nylon-6, Nylon-66, Polypropylene, Silicon Carbide and Natural Bristles. BANGALORE BRUSHWARE with an experience of twenty-five years is well established with qualified staff and imported technology to cater the specific requirement of our customers. Integrating The German Technology almost a decade back, BANGALORE BRUSHWARE has understood the need of professionalism in the work culture of Brush Manufacturing. Its commitment to the quality and sanitation at every level of manufacturing process has made it qualified to be certified as an ISO 9001-2000 company. We manufacture all kind of Industrial and domestic brushes. Our brushes widely used in the fields of Food preocessing, Floor Cleaning, Pharmaceuticals,Textile applications, Latex applications, printing & labelling machines, xxxxx The brushes can be made as per custumers specifications.
Driplex is one of the leading Turnkey EPC Company for Water & Wastewater Treatment Systems of India. The range of services offered by driplex can be classified under two categories. (A) Industrial(B) MunicipalitiesO Pre-Treatment PlantsO Demineralisation PlantsO Softening PlantsO Condensate Polishing SystemsO Water Conditioning Chemicals & Cooling SystemO Circulating Water Treatment SystemsO Reverse Osmosis PlantsO Ultra-Filtration SystemsO Effluent Treatment PlantsO Ash Handling SystemsO Potable Water Treatment PlantsO Sewage Treatment Plants
PROFILEWe are “Doverya” an energetic collective of individuals passionate about providing effectivedigitisation of drawings, scanning, data conversion and document management solutions tobusinesses.Our mission is to provide solutions with cost effective work that provides our clients to meet costcutting, quality and quantity and also meeting the dead lines.We endeavour to develop lasting business relations with our clients, up to their satisfaction. Ourclients range from multi national companies, government organisations to small local companies.CAD Services:\We specialize in CAD/CAM drafting and modelling of Component Drawings of any sizes withsolemn vow of Delivering Quality and Quantitative services. We can prepare the archives fordrawings of any trade as per the requirement of industry / organization.Our team comprises of Technical Experts from various field like Architectural, Mechanical,Structural, Piping and Moulding etc. in 2D drafting and 3D modelling with more than 10 years ofexperience.Scanning, Digitisation Services:We also specialize in the field of scanning, data conversion (PDF, word, HTML etc.), data entryand data management of drawings, maps and documents of any sizes for easy retrieval, viewing,editing and printing.Technical Translation Services:We are group of translators passed out from various Russian and CIS universities and haveexperience of Translation of Russian language to English and vice - versa for more than seven years.
JAYVEER ENTERPRISE is an established high-tech firm specialized in the research, development, engineering, and marketing of LED based lighting solutions. We have professional engineers always staying at the forefront of LED technology. We're especially well-placed in the field of Power LED thermal management and related lighting solutions.We are professional manufacturer of LED Floodlight, LED street lamp, LED High Bay light, LED Tunnel Light, Wall Lamp, Solar Lawn Light.LED Flashlight.LED Camping Lamp, LED Spotlight, LED Ceiling lamp, LED grille lamp, LED down lamp, Rechargeable LED Emergency light, LED work light, solar panel. We have an excellent sales team, QC, R&D department and skillful workers and have complete production equipments and test equipments. We insist on constant innovation & improvement as the ideals of continued management and development of our company, to provide better service to our clients.We would like to extend our warmest welcome to all of new customer to enquire us, and establish long-term cooperation relationship.Our product range is as follows:-1. Solar led street light , Solar home lighting system2. High Power LED Down light, Panel light and tubelight3. High Power LED Under-cabinet Light4. High Power LED Wall Washer5. LED Cabinet Lighting and Decorative Lighting6. LED Tube for Cabinet and indoor-outdoor Lighting7. LED Tube for Commercial/Office Lighting8. LED Street light with both AC and DC operating mode
Evergreen Solar Systems India Private Limited was founded in 2009 to cater the renewable energy sectors and to contribute towards carbon emission reduction on the earth. We have set up our 20 MW capacity Solar Module manufacturing facility at Coimbatore. Another 20 MW line is under progress which is going to be commissioned shortly. Our parent company Sulochana Cotton Spinning Mills Private Limited has a strong base in Yarn, Textile and Polyester Fiber textile manufacturing since 70 years and running successfully with a turnover of USD 200 million. The group has already established global presence in countries like USA, Germany, Australia, Japan, South Africa and United Kingdom.From Evergreen Solar Systems, we can provide complete solution for Solar Power Plant stating from Design, Procurement and Installation. Solar PV System will provide an uninterrupted power through solar energy in the day hours as well as backup system with battery bank for the existing electrical appliances viz., Indoor lights, Corridor Lights, Fans, Computers, and Printers etc.
Why Solar?While a majority of the world's current electricity supply is generated from fossil fuels such as coal, oil and natural gas, these traditional energy sources face a number of challenges including rising prices, security concerns over dependence on imports from a limited number of countries which have significant fossil fuel supplies, and growing environmental concerns over theclimate change risks associated with power generation using fossil fuels.As a result of these and other challenges facing traditional energy sources, governments, businesses and consumers are increasingly supporting the development of alternative energy sources and new technologies for electricity generation. Renewableenergy sources such as solar, biomass, geothermal, hydroelectric and wind power generation have emerged as potential alternatives which address some of these concerns. As opposed to fossil fuels, which draw on finite resources that may eventuallybecome too expensive to retrieve, renewable energy sources are generally unlimited in availability. Solar power generation has emerged as one of the most rapidly growing renewable sources of electricity. Solar power generationhas several advantages over other forms of electricity generation:Reduced Dependence on Fossil FuelsSolar energy production does not require fossil fuels and is therefore less dependent on this limited and expensive naturalresource. Although there is variability in the amount and timing of sunlight over the day, season and year, a properly sized andconfigured system can be designed to be highly reliable while providing long-term, fixed price electricity supply.Environmental AdvantagesSolar power production generates electricity with a limited impact on the environment as compared to other forms of electricityproduction.Matching Peak Time Output with Peak Time DemandSolar energy can effectively supplement electricity supply from an electricity transmission grid, such as when electricity demandpeaks in the summer.Modularity and ScalabilityAs the size and generating capacity of a solar system are a function of the number of solar modules installed, applications ofsolar technology are readily scalable and versatile.Flexible LocationsSolar power production facilities can be installed at the customer site which reduces required investments in production andtransportation infrastructure.Government IncentivesA growing number of countries have established incentive programs for the development of solar and other renewable energysources, such as:? Net metering laws that allow on-grid end users to sell electricity back to the grid at retail prices,? Direct subsidies to end users to offset costs of photovoltaic equipment and installation charges,? Low interest loans for financing solar power systems and tax incentives and? The Government Standards that mandate minimum usage levels of renewable energy sources.Despite the cost, an advantage of photovoltaic systems is that they can be used in remote areas. Anywhere a diesel generator isthe technology of choice, many times a photovoltaic system is a much better life-cycle cost option.Stand-alone photovoltaic systems produce power independently of the utility grid. In some off-the-grid locations even one halfkilometres from power lines, stand-alone photovoltaic systems can be more cost-effective than extending power lines. They areespecially appropriate for remote, environmentally sensitive areas, such as national parks, cabins, and remote homes.The solar power market has grown significantly in the past decade. According to Solar buzz, the global solar power market, asmeasured by annual solar power system installations, increased from 427 MW in 2002 to 1,744 MW in 2006, representing aCAGR of 42.2%, while solar power industry revenues grew to approximately US$10.6 billion in 2006. Despite the rapid growth,solar energy constitutes only a small fraction of the world's energy output and therefore may have significant growth potential.Solar buzz projects in one of its forecasts that annual solar power industry revenue could reach US$31.5 billion by 2011.Why is everyone so worried about energy today?The earth's non-renewable energy resources—like coal and oil-are being depleted too irresponsibly and quickly. The result is environmentaldamage on a scale we may have never seen before…and which we may never be able to fix.Temperatures are rising, as are pollution levels, as are fuel prices. Most countries in the world will be facing serious energy shortages in the nearfuture. In developing countries, improved quality of life and industrialisation are causing increasing energy demands. We seem to be creating agrim future.What is "green energy" and why does it matter?Against the scenario described above, terms like green energy and sustainability hold the key to a better tomorrow.Green energy refers to natural sources of energy that are environmentally friendly-energy that does not produce pollution in its wake and isnaturally replenished.The common sources of renewable energy would include power from anaerobic digestion, biomass power, fuel-cell power, geothermal power,small-scale hydropower, solar power, tidal power, wave power and wind power. Some people add nuclear power in the category of greenenergy-this, however, can be debated because of issues related to nuclear safety and waste.Green energy is increasingly gaining value in today's more environmentally-conscious world, in which people are aware of the importance ofsustainable, renewable energy sources and the impact human activities have on the environment. Green energy is being harnessed and used forelectricity, heating and cogeneration.Is it economically viable to use green energy?Both by choice and legislation, consumers are turning to green energy to meet domestic, business and manufacturing needs. And economicbenefits and concessions are being offered to incentivise the generation and use of green energy:Renewable energy certificates or RECs (also known as green certificates or green tags) are tradable commodities that attest to the energy anorganisation generates by using renewable energy sources. Typically, one certificate represents generation of 1 Megawatt hour of electricity.Countries using green certificates as national trading schemes include Poland, Sweden, and some states in the USA, the UK, Italy and Belgium(Wallonia and Flanders).Further, different initiatives have been started to regulate greenhouse emissions and ameliorate the effects of global warming. Examples includethe Kyoto Protocol (drawn up in Kyoto in 1997) and the G8 Climate Change Roundtable (formed at the 2005 World Economic Forum) whichaim to reduce emissions by the world's richest countries; and the European Union Emission Trading Scheme.The emission / emissions trading approach-sometimes called cap and trade-facilitates large scale reduction by setting a limit or cap on theamount of a pollutant that can be emitted. Emission permits are issued to the relevant organisations / industries, which have to hold an equivalentnumber of allowances or credits (which represent permission to emit a specific amount of pollutants). Credits cannot exceed the cap, and if theydo, the over-polluting organisation needs to "trade" (or buy) credits from an under-polluting one. Carbon credits are exchanged betweenbusinesses or bought and sold in the global marketplace at the prevailing market price. They can be used to finance carbon reduction schemesbetween trading partners and around the world.Carbon finance, which encompasses the many financial implications of living in a carbon-constrained world, has become a new branch ofenvironmental finance.What exactly is solar energy?Solar energy refers to the energy generated by the sun: its heat and light and the natural cycles (like the wind, water flow and plant growth) thatit powers. The solar energy that reaches the earth's surface is dissipated in different ways: about 15% is reflected back into space; 30% is used toevaporate water, which eventually creates rainfall; some is absorbed by plants, land and oceans…and the rest can be economically harnessed tomeet our energy needs. Solar energy is abundant, everlasting, clean, easy-to-operate, cheap, has no negative impact on the environment and canbe used as decentralised source of energy.Solar radiation refers to the electromagnetic energy transmitted from the sun. The amount that reaches the earth is equal to one billionth of thetotal solar energy generated, or the equivalent of about 420 trillion kilowatt-hours. Solar radiation—along with secondary solar resources such aswind and wave power, hydroelectricity and biomass—accounts for most of the available flow of renewable energy on Earth.How is the power of solar energy tapped?Different technologies have been developed to tap the sun's abundant energy. They range from small powering devices for computers toindividual home systems to large-scale solar power concentrating systems. What they have in common is that all of them enable us to diversifyour energy sources, improve efficiency, save money-and meet our energy needs in a green and sustainable fashion.What is the difference between active and passive solar energy?Based on method of usage, solar energy is classified into two categories: active and passive.Active solar refers to solar energy that is directly converted into the form in which it will be used. Active solar energy systems need a solarcollector to store energy and pump-connected controls or fans that draw heat from the storage source, as may be required.Active solar is further classified into two categories: solar thermal and solar photovoltaic. Solar thermal refers to usages based on a heatingapplication: heating water and air, cooking and drying, distillation and steam generation are some examples. Technologies based on solarthermal include solar geysers, solar concentrators, solar cookers and solar stills. The second category, solar photovoltaic, is based on thegeneration of electricity. It uses solar silicon cells to convert solar energy to electrical energy, which can be used directly or through a batterystorage system.The term passive solar is used when the architectural design, natural materials, or absorptive structures of a building themselves are used as anenergy-saving system. The building itself serves as a solar collector and storage device and the builder can reduce the needs for external energyoutputs for lighting, heating and cooling, pumping of water and so on.What does 'photovoltaic' mean?Literally translated, 'photovoltaic' means 'electricity from light'. Photovoltaic systems use daylight (not necessarily direct sunlight) to convertsolar radiation into electricity. Solar cells are one way to make this conversion possible.How do solar cells work?Solar cells convert light energy into electrical energy either indirectly (by first converting it into heat) or through a direct process known as thephotovoltaic effect.The most common types of solar cells are based on the photovoltaic effect. This happens when light falls on a two-layer semiconductor materialand results in a potential difference, or voltage, between the two layers. The voltage produced in the cell is capable of driving a current throughan external electrical circuit that can be utilised to power electrical devices. Solar cells are usually made from silicon, which is treated to releaseelectrons-thereby generating an electric current-when light strikes it. Solar cell production increased by 50% in 2007, to 3,800 megawatts, andhas been doubling every two years.What materials are used to produce solar cells?The most important material for solar cells production is silicon. At the time being, it is almost the only material used for solar cell massproduction.Gallium Arsenide (GaAs)-GaAs is used for production of high-efficiency solar cells. It is often utilised in concentrated PV systems and spaceapplications. Their efficiency is up to 25%, and up to 28% at concentrated solar radiation. Special types have efficiency over 30%.Cadmium Telluride (CdTe)-Thin-film material produced by deposition or by sputtering is a promising low-cost foundation for photovoltaicapplications in the future. Lab solar cells' efficiency is up to 16%, while efficiency in the commercial types is up to 8%.Copper-Indium-dieseline (CuInSe2 or CIS)-Thin-film material has an efficiency of up to 17%. The material is promising, yet not widely useddue to production-specific procedures.Structure of a Solar CellA typical solar cell is a multi-layered material, comprising:? A cover layer of clear glass that provides outer protection from the elements.? Transparent adhesive that holds the glass to the solar cell.? An anti-reflective coating that is designed to maximise energy absorption bypreventing the light that strikes the cell from bouncing off.? Front contact that transmits the electric current.? A thin N-type semiconductor layer made of silicon, doped with phosphorous.? A second thin P-type semiconductor layer of silicon, doped with boron.? A back contact that transmits the electric current.What are the technologies used to make solar cells?Thanks to extensive research, many types of solar cells are now available. And new and different approaches-permitting a trade-off betweenlower manufacturing costs versus lower efficiency in converting sunlight to electricity-have it possible to reduce the costs of production.There are three basic types of solar cell. Mono crystalline cells are cut from a single large crystal of silicon whilst polycrystalline cells are madefrom a number of crystals. The third type is the amorphous solar cell.Mono crystalline SiliconThis type of solar cell uses a single layer of silicon for the semi-conductor. In order to produce this type of silicon it must be extremely purewhichmeans it is the most expensive type of solar cell to produce.Polycrystalline SiliconTo make polycrystalline silicon cells, liquid silicon is poured into blocks that are subsequently sawed into plates. This type of approach producessome degree of degradation of the silicon crystals, which makes them less efficient. However, this type of approach makes manufacture easierand cheaper.Amorphous (Thin-Film) SiliconThis type of solar cell uses layers of semiconductor that are only a few micrometers thick (about 1/100th the thickness of a human hair). Whilethis lowers the material cost, it makes it less efficient than the other types of silicon. However, because it is so thin, this type of cell has theadvantage that it can be placed on a wide variety of flexible materials in order to make things like solar shingles or roof tiles.The manufacturing process for amorphous silicon photovoltaic modules is a third-generation technology based upon a highly successful andfield-proven large batch approach to amorphous silicon deposition.Incidentally, the term thin-film is based on the method used to deposit the film, not from the thinness of the film. Thin-film cells are deposited invery thin, consecutive layers of atoms, molecules or ions. Thin-film cells are also usually amenable to large-area fabrication and are suitable forautomated, continuous production, arraying and packaging. They can also be deposited on flexible substrates.What exactly is a SPV System?The solar cell is the smallest unit of a Solar Photovoltaic (SPV) System. Solar cells areelectrically connected to make solar or PV (photovoltaic) modules.A number of solar cells joined in series and parallel make a module. PV modules are very flexiblein their applications: they are portable, can be transported to different locations or can be used as agenerating station for the utility. PV panels include one or more PV modules assembled as a prewired,field-installable unit. A number of linked panels make an array.A combination of solar module(s) in series/parallel combination, storage battery, interface electronics, mechanical support structure, cable andswitches, etc. constitutes an SPV System. SPV systems can be used to provide electricity for lighting, water pumping, and battery charging aswell as for feeding power to the grid, etc.SPV systems can be used for either centralised or distributed power generation. The fuel (sunlight) is free, and no noise or pollution is createdfrom operating PV systems. In general, PV systems which are well designed and properly installed require minimal maintenance, have longservice lifetimes and are very reliable. As abundant solar radiation is available in most parts of India, SPV systems can be used anywhere in thecountry. In addition, they are easy to install and yield quick savings on investment. However, it is necessary to store energy generated by SPVsystems in storage batteries for use in non-sunshine hours.Solar-generated electricity is most often fed into the electricity grid using inverters (grid-connected PV systems). In stand-alone systems,batteries are used to store the energy that is not needed immediately.In 2007, installations of all photovoltaic increased by 83%, to bring the total installed capacity to 8.7 GW-and make grid-connected photovoltaicelectricity the fastest growing energy source. Germany accounted for almost half this increase, followed by Japan.
There are no comments about A.B.data solutions(p)LTD.
Reply to MAira f. review